For the MSc with advanced practice, you complete 120 credits of taught modules, a 60-credit master’s research project and 60 credits of advanced practice.
Course structure
Core modules
Advanced Practice
Advanced Practice is normally undertaken over a one semester period and has been developed to enable a student to gain real-world practical experience to enhance their employability and academic learning. Students will receive preparatory sessions to enable them to apply to internship opportunities, which normally include:
Vocational internships with external organisations based offsite
Research or development internships based on campus
Employer-led internships based on campus
Students will undertake an appropriate advanced practice opportunity to meet their skill set and aspirations, related to their course.
All students will be assigned an academic supervisor to provide academic and pastoral support throughout their internship. Students will be assessed through a reflective report on a pass/fail basis. This module does not count towards the overall classification of the degree.
CAD/CAM and Product Developments
This module provides knowledge of time compression technologies to enable design and delivery of innovative products and reduce time to market. It includes a study of rapid prototyping and production development techniques alongside a review of collaborative product development and concurrent design engineering strategies using 3-D modelling to minimise manufacturing lead time. You are introduced to various software packages; you are encouraged to take a critical view of these packages and consider their integration with other systems.
Engineering Research Project
You investigate an area of engineering and work independently to a level recognised to be at the forefront of the discipline. The topic can be in the form of a research project or a design project. Key skills in research and in knowledge application and creation will be developed through keynote lectures and self-managed independent study. You are required to demonstrate the capacity for a comprehensive and objective analysis, and for developing innovative and constructive proposals for the solution to the project topic.
Finite Element Methods
This module provides practical experience of using commercially available finite element packages. The application of the method is demonstrated using a number of case studies. You are encouraged to use the technique as an extension of your standard text books in solving design and manufacturing problems.
Machine Design
Engineering Design may be defined as an interactive decision-making process that has as its objective the creation and optimization of a new or improved technical system for the fulfilment of a human need or desire, with due regard for conservation of resources and environmental impact.
This module develops the comprehensive theories and the principles of Mechanical Design and applies them to the design and analysis of realistic engineering problems analytically and/or computationally.
Specific areas of study include:
- advanced principles of design and stress analysis
- design of a mechanical drive
- design details and other machine elements
- experimental stress analysis
Lectures introduce each major topic on the module emphasizing both the conceptual and theoretical development and their applications to realistic engineering problems, through worked examples. Tutorials and seminars are used primarily for you to practice and to provide feedback. Laboratory session is used to investigate the experimental stress analysis and develop a deeper understanding of the theory and principles.
Assessment is by three in-course assignments.
Supply Chain Management
This module demonstrates how to benchmark an organisation and introduces you to the concepts of key performance indicators, total quality management (TQM), six sigma, total productive maintenance (TPM) and supply chain management. You learn the manufacturing assessment methodology based on data provided in a benchmarking case study. Topics covered in TQM, TPM, and supply chain management enable you to plan activities, which improve quality programme maintenance planning and supply chain integration for an organisation and move that organisation towards sustainable competitive advantage.
Sustainability
You will investigate how the role of the engineer is becoming more focused on serving society as well as industry and to recognise the impact of engineers’ decisions on society and the environment.
As engineers of the future, you will need to have a sustainable worldview, acknowledging international, cultural, and diversity issues in society. In addition, you will also be expected to solve complex problems with consideration for multi-perspective views, long-term effects, risk, and the impacts of decisions on society.
This module will examine the key topics surrounding sustainability in the context of engineering applications across a range of disciplines and key future challenges such as energy, transport, and construction.
The subjects will be taught through a combination of lectures and seminars. Lectures will develop key concepts and knowledge. Seminars will allow more focused examinations of important issues and approaches.
and one optional module
Continuum Mechanics
This module develops a universal framework of mechanical principles that applies to all materials and integrates classical treatment of fluids and solids with more recent developments in rheology. The theoretical development is made concrete through extensive use of examples drawn from real world applications to ensure it is thoroughly grounded in current industrial practice.
Tutorials provide the opportunity for you to become fluent in the manipulation of the appropriate notations, principles and laws; and to develop competence in the application of these principles to a broad range of real world examples and Case Studies.
Manufacturing Systems
This module considers typical hardware and software involved with automated machinery and production processes. It shows you how machines can be integrated into flexible cells and flexible manufacturing systems and, when linked with appropriate production management software, into computer integrated manufacturing systems.
